FR2838181A1 - High pressure hydraulic pump for feeding large number of air conditioning systems, comprises high pressure pump driving liquid gas from main reservoir to high pressure reservoir and output divider - Google Patents

Abstract

Liquid gas from a main reservoir (B) is sent to a high pressure reservoir (E) by a motor (M) driven pump (C). The main reservoir has a contact (H) which at low level cuts out the motor to ensure that the gas is always liquid and the pump is not dry. The liquid gas passes from the high pressure reservoir through a filter (F) to a divider (G) with electrically operated valves (R) which supplies other installations

Description

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DESCRIPTION

  The present invention relates to a device making it possible to easily replace the obsolete system of air compressor placed on air conditioning units and cold groups of cold rooms with a high pressure, silent pump capable of supplying a

  large number of air conditioning units.

  Traditionally, the thrust of gas caused by the current compressor has been relatively small. Therefore, it is imperative to position the group, containing the tank, the radiator and the gas tank, near the air conditioner and this, most often in

  building facade; which leads to an aesthetic concern.

  The present invention makes it possible to install the group, equipped with the above-mentioned pump in the cellar of a building that can have up to 28 floors and can serve a large

number of devices.

  This system is adaptable to all types of premises (offices, individual house, industrial building, etc.). Regarding a single house, it is possible to run the cooling system via a water heater. This allows the heat emitted by the radiator to be recovered The modification made by replacing the air compressor with a pump

  high pressure does not cause any problems with the operation of the indoor air conditioner.

  On the contrary, this system makes it possible to supply several devices arranged in various places.

  The operation of the device is broken down into several points: The valve (A) allows the primary tank (B) to be filled with gas. At the same time, the pump (C), actuated by the electric motor (M), creates an overpressure in the

tank (E).

  On command of the interior air conditioning unit, the gas travels along the circuit via the filter (F), the solenoid valve (R) is activated and thus releases the gas which supplies the interior appliance (s). In the case of two air conditioners to be served, it will not be necessary to provide an overpressure tank and solenoid valve on the distributor, the high pressure pump ensuring the

  force required given the low flow rate.

  In the case of several air conditioners (more than 2 units), the pressure is maintained in the overpressure tank (E), thus putting the circuit depressurized. This allows the rapid renewal of gas in the air conditioner and reduces the thrust of the high pressure pump. For the pump to work, it is imperative that the gas is in the liquid state. When the

  primary tank (B) is on minimum, the pressure switch (H) activates and cuts the circuit.

  The valve (J) allows the circuit to be drained. In the case of several air conditioners, it will be advisable, in addition to the valve (J), to install a drain valve (K) for the tank

overpressure (E).

  In view of the low resistance of the high pressure pump, an in-line electric motor and a belt system (N) can be used. The pump thus actuated

  will provide a thrust of 2000 rpm I minutes.

  Depending on its layout, if the interior circuit of the radiator is spiral, it can be used

  to dry the ambient air using the hot air it generates.

  A high pressure pump and electric motor unit allows to reduce

  the size of the invented system.

  There are many possibilities for reducing noise and congestion in current systems. Depending on the location of the high-pressure pump (C), if it is placed in the cellar of a building or house, the overpressure tank (E) can be installed near the indoor fan, thus improving the gas exchange between tank and radiators via the

__50 dispatcher, leca_échéant.

  When starting up the system, it is imperative that the quantity of gas never be below the minimum indicated on the gauge in order to prevent the pump from working empty. An electrical contact (H) is installed on the minimum position of the primary tank (B), however, and this

  in order to enhance security, an indicator light will be placed on the tank.

  In the case of several air conditioners which require constant pressure, it will be advisable

  install a pressure gauge (Q) and a regulator to assist the dispatcher.

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  A- Filling valve B- Primary tank C- High pressure pump 6 0 D - Cl ap and non-return valve E- Booster tank F- Filter (gas tank) G- Distributor H- Pressure switch (on - off) I - Gauge J- Drain valve K- Suppression tank drain valve Direction of the gas circuit M- Electric motor N- Belt P- Pulley Q- Pressure gauge RE Distributor solenoid valve

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VEDICATIO-151S

  1) Device making it possible to easily replace: t the air compressor system currently placed on air conditioning devices, by a high pressure hydraulic pump characterized in that it comprises: - a high pressure pump (C) actuated by a motor

electric (M).

- a suppression tank (E).

  - a distributor equipped with solenoid valves in the case of several

  They are indoor air conditioning.

  2) Device according to claim 1 characterized in that the gas, in the liquid state, is propelled by the high pressure pump (C) towards the overpressure resenroir 15. 3) Device according to claim 1 characterized in that -: : -: the power supply of several air conditioning units requires a